Balance Clinical Trial
Official title:
Can Cognitive Enhancers Reduce the Risk of Falls in Older People With Mild Cognitive Impairment? A Randomized Controled Trial
Compared with cognitively normal older adults, those with mild cognitive problems (MCI) have
a two-fold higher rate of falls, sustain more fractures, and have a higher rate of mortality
due to falls. Why older adults with cognitive problems fall more frequently is not completely
understood. What is known, however, is that attention is a necessary cognitive resource for
normal walking and impairments in attention are associated with increased risk of falls in
older adults.
It has been suggested that cholinesterase inhibitors (ChEI), medications used for treatment
of dementia, may improve motor function and walking (gait performance). Since ChEI are known
to improve attention, we hypothesized that ChEI will reduce falls risk in people with MCI by
improving their gait velocity, improving their balance, and reducing their gait variability;
a well-established risk factor for falls.
In the proposed study, we will evaluate the effect of donepezil (ChEI) on gait velocity, gait
variability, and the balance on 140 elderly individuals with MCI (70 intervention and 70
controls). Gait variables will be measured using an electronic walkway, and balance
confidence using a validated scale (Activities-Specific Balance Confidence Scale; ABC) over
four months.
By characterizing and understanding the effects of cognitive enhancers on fall risk in older
adults with cognitive impairments, we will be able to pave the way for a new approach to fall
prevention in this population. We would establish that medications that augment cognitive
function could be a complementary therapeutic option for reducing fall risk in people with
MCI. This may lead to new approaches to prevent and treat fall risk in this population, which
will lead to improve the autonomy and quality of life of seniors in early stage of dementia,
and a decreased burden for the Ontario health care system.
Older adults with cognitive problems have a higher risk of falls, with annual incidence of
around 60-80%; at least twice that of cognitively normal older adults. The consequences of
falls in this population can be quite serious; fallers with cognitive problems are
approximately five times more likely to be admitted to institutional care than people with
cognitive issues who do not fall. They are also at risk of major fall-related injuries such
as fractures and head injuries leading to increased mortality. Although the reasons for the
increased fall risk in cognitively impaired people are not completely understood, what is
known is that these impaired cognitive abilities that can limit their attentional resource
allocation while walking. As well, since executive function is also an important cognitive
resource for normal walking performance, impairments in this domain are also associated with
both dementia and risk of falls. Falls is a major cause of disability and dependence in older
Ontarians, especially for those experiencing cognitive problems, and through their associated
costs relating to hospital admissions, provision of treatments, and nursing home placements,
forms a definite burden for the provincial health care system.
One approach that can be used to understand the risk of falls in people with memory problems
is to target them in the early stages of cognitive decline. Mild Cognitive Impairment (MCI)
is an entity that is conceived as a transitional state between benign age-related cognitive
change and early dementia. Specific diagnostic criteria have been developed and validated to
diagnose MCI, with the prevalence of the diagnosis being estimated at 19% among older adults,
increasing to 29% in those over age 85. People with MCI have been found to have a 10 to 15
times higher risk of developing Alzheimer's disease (AD), as well as a higher risk of falling
compared with age-matched controls.
Although walking has long been considered as primarily an automatic motor task, emerging
evidence suggests that this view may be overly simplistic. Cognitive function may play a key
role in the regulation of even routine walking, particularly in older adults. Attention is a
necessary cognitive resource for maintaining normal walking and there is evidence that
cognitive and attentional deficits are independently associated with postural instability,
impairment in performing daily living activities, and future falls. The role of cognition in
walking is even more marked in people with cognitive dysfunction, whose gait performance is
affected by any extra cognitive load. A sensitive way to quantify gait performance is by
assessing the gait variability. Gait variability is defined as the stride-to-stride variation
in time, and quantifies the automaticity of gait, with greater variability indicating less
rhythmicity and a more unstable gait pattern. Evaluating gait variability offers an accurate
methodology to identify subtle changes on walking because of pathological conditions or
disease. For instance, cognitively normal older adults have low gait variability; however,
high gait variability has been described in Parkinson's disease, Alzheimer disease, and has
been associated with high risk of future falls and mobility decline. Additionally, previous
studies have demonstrated that gait variability may serve as a clinically relevant parameter
in the evaluation of mobility, and may be a responsive measure for different interventions in
fall prevention.
Cholinesterase inhibitors have been tried in MCI individuals with the goal to delay the
progression to dementia. A recent RCT demonstrated that cognitive enhancers, specifically
donepezil, might improve cognition in this population; however, the effect was weak and had
questionable clinical significance. Currently, there is no indication to use cognitive
enhancers to treat people with MCI with the goal of delaying or preventing further functional
or mobility decline.
Recently, it has been suggested that ChEI may improve gait performance through an improvement
in attentional resource allocation due to the fact that ChEI are known to improve attention
and executive function. We will expect as a result of our intervention with donepezil during
a 6 month period, a reduction of gait variability, an important marker of fall risk, through
an improvement on cognition, namely attention an executive function
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